Use of dicalcium phosphate anhydride powder

ABSTRACT

The invention relates to dicalcium phosphate anhydride powder, at least 50 wt. % thereof having a particle size of between 45 and 150 μm, a maximum of 50 wt. % having a particle size of &lt;45 μm, and a maximum of 5 wt. % having a particle size of &gt;150 μm. Said powder also exhibits a bulk density of 1000 to 5000 g/l and a specific surface area of &lt;5 m 2 /g. and is used to directly tablet or encapsulate pharmaceutical preparations.

[0001] Dicalcium phosphate dihydrate is used to a great extent as a carrier substance in the pharmaceutical industry, but the range of use thereof is limited to active substances which are not water-sensitive as under unfavourable conditions the dihydrate can already slowly separate off water from a temperature of 40° C. Therefore the use of dicalcium phosphate anhydride acquired increasing attraction as a carrier substance for drug forms, in particular for the direct tabletting of pharmaceutical products.

[0002] Dicalcium phosphate anhydride is generally produced by the neutralisation of phosphoric acid with a basic calcium compound, for example calcium hydroxide or calcium carbonate, at a temperature above 60° C. At lower temperatures dicalcium phosphate dihydrate or a mixture of dicalcium phosphate dihydrate and anhydride is produced. The dicalcium phosphate anhydride generally occurs in the form of fine crystals which are crushed in mills to form powder. The products obtained in that way are usually of an average grain size of smaller than 20 μm and are of a bulk density of between 500 and 900 g/l. Because of the high degree of fineness and the poor trickle flow capability which this involves, those anhydride products cannot be directly tabletted but have to be granulated prior to use in order to ensure an adequate flow capability which is required for uniformly filling the dies of the tabletting machines.

[0003] In order to avoid those disadvantages, a switch was made to using coarse-grain dicalcium phosphate anhydride for direct tabletting. By way of example U.S. Pat. No. 4,707,361 describes a coarse-grain dicalcium phosphate anhydride powder for tabletting with a grain size of at least 90% greater than about 44 μm and at least 95% smaller than about 420 μm and with a specific surface area of greater than 5 m²/g. That powder is produced by dehydrating dicalcium phosphate dihydrate.

[0004] DE-A-4 122 960 describes a process for producing coarse-grain dicalcium phosphate anhydride powder, in which at least 95% are of a grain size of over 45 μm and the mean grain diameter thereof is in the range of between 130 and 150 μm. That powder which is intended for direct tabletting is produced by a procedure whereby dilute phosphoric acid is provided at a temperature of between 70 and 90° C and lime solution and further phosphoric acid are added, maintaining a pH-value of between 3 and 4.5. The pH-value is then adjusted to between 5.5 and 6.8 with lime solution.

[0005] Finally EP-A-0 644 156 describes, for drugs, cosmetics and foodstuffs, a dicalcium phosphate with a low water of hydration content and a specific surface area of between 20 and 60 m²/g, a bulk weight of a maximum of 200 g/l and a grain size of the primary particles of between 0.1 and 5 μm and a grain size of the agglomerates of between 2 and 10 μm. Manufacture is effected by precipitation from phosphoric acid and an alkaline calcium compound in the presence of an organic complexing compound and granulation by spray drying.

[0006] Now the object of the present invention is to obtain a dicalcium phosphate anhydride powder with superior trickle properties, by means of which, particularly in the direct tabletting of pharmaceutical preparations, increased amounts of calcium can be introduced into the preparation.

[0007] In accordance with the invention dicalcium phosphate anhydride powder of which at least 50% by weight is of a grain size of between 45 and 150 μm, a maximum of 50% by weight is of a grain size of <45 μm and a maximum of 5% by weight is of a grain size >150 μm and which has a bulk weight of between 1000 and 1500 g/l and a specific surface area of <5m²/g, is used for the direct tabletting or capsule filling of pharmaceutical preparations.

[0008] Preferably use is made of a dicalcium phosphate anhydride powder with a bulk weight of between 1200 and 1400 g/l, preferably such a powder with a specific surface area <2m²/g.

[0009] The dicalcium phosphate anhydride powder used in accordance with the invention is distinguished by a particularly high bulk weight and, in spite of the relatively high degree of fineness, by a very good trickle flow characteristic. For that reason this powder is particularly suitable for direct tabletting without preceding granulation and introduces a larger amount of calcium into the resulting preparation, than other anhydride powders, without the volume of the drug form greatly increasing. The product is also excellently suited to filling hard and soft gelatine capsules.

[0010] The grain size distribution of the dicalcium phosphate anhydride powders used in accordance with the invention can be achieved by purely mechanical processes by sieving off fractions of given grain sizes and specifically mixing together given proportions of various grain size fractions. The above-mentioned properties of the dicalcium phosphate anhydride powder used in accordance with the invention can however also be set by suitable reaction implementation.

EXAMPLES Example 1 and comparative Example 1

[0011] The two test formulations each comprise 99% by weight of dicalcium phosphate anhydride and 1% by weight of magnesium stearate.

[0012] The dicalcium phosphate anhydride used in accordance with the invention had the following properties: bulk weight 1300 g/l specific surface area   1.5 m²/g sieve analysis through 45 μm: 35% wt 45-150 μm: 63% wt over 150 μm:  2% wt

[0013] The dicalcium phosphate anhydride in accordance with the comparative example had the following properties: bulk weight 750 g/l specific surface area  15 m²/g sieve analysis through 45 μm:  3% wt 45-150 μm: 42% wt over 150 μm: 55% wt

[0014] The two test formulations were used to press tablets having the following tabletting parameters: pressing force 40 kN tabletting speed 20,000 tablets/h tablet diameter: 10 mm filling height of the dies: so set that a tablet thickness of 3.0 mm is achieved.

[0015] Result: Formulation according Formulation according to to the invention the comparative example Tablet weight 515 mg 440 mg mg Ca/tablet 150 mg 128 mg Tablet thickness  3.0 mm  3.0 mm Tablet hardness  52 N 112 N

[0016] With the same tablet thickness, a considerably higher calcium content per tablet is achieved when using the dicalcium phosphate anhydride powder according to the invention.

Example 2 and Comparative Example 2

[0017] The two test formulations each comprise 60% by weight of dicalcium phosphate anhydride, 39% by weight of MCC (microcrystalline cellulose) and 1% by weight of magnesium stearate.

[0018] The dicalcium phosphate anhydride used in accordance with the invention had the following properties: bulk weight 1300 g/l specific surface area   1.5 m²/g sieve analysis through 45 μm: 35% wt 45-150 μm: 63% wt over 150 μm:  2% wt

[0019] The dicalcium phosphate anhydride used in the comparative example had the following properties: bulk weight 750 g/l specific surface area  15 m²/g sieve analysis through 45 μm:  3% wt 45-150 μm: 42% wt over 150 μm: 55% wt

[0020] The two test formulations were used to press tablets having the following tabletting parameters: pressing force 40 kN tabletting speed 20,000 tablets/h tablet diameter: 10 mm filling height of the dies: so set that a tablet weight of 325 mg was achieved.

[0021] Result: Formulation according Formulation according to to the invention the comparative example Tablet weight 325 mg 325 mg mg Ca/tablet  77 mg  77 mg Tablet thickness  2.2 mm  2.5 mm Tablet hardness 134 N 123 N

[0022] With the same amount of calcium in the two tablets those using the dicalcium phosphate anhydride powder employed in accordance with the invention were of a considerably smaller tablet thickness. 

1. Use of dicalcium phosphate anhydride powder of which at least 50% by weight is of a grain size of between 45 and 150 μm, a maximum of 50% by weight is of a grain size of <45 μm and a maximum of 5% by weight is of a grain size >150 μm and which has a bulk weight of between 1000 and 1500 g/l and a specific surface area of <5m²/g, for the direct tabletting or capsule filling of pharmaceutical preparations.
 2. Use of dicalcium phosphate anhydride powder with a bulk weight of between 1200 and 1400 g/l as set forth in claim
 1. 3. Use of dicalcium phosphate anhydride powder with a specific surface area <2 m²/g as set forth in claim 1 or claim
 2. μm, a bulk weight of between 1000 and 1500 g/l, and a specific surface area of <5m²/g; and direct tabletting at least one pharmaceutical product with said dicalcium phosphate anhydride powder.
 2. The method as claimed in claim 1 wherein said dicalcium phosphate anhydride powder comprises a bulk weight of between 1200 and 1400 g/l.
 3. The method as claimed in claim 1 wherein said dicalcium phosphate anhydride powder comprises a specific surface area <2 m²/g.
 4. A method of using a dicalcium phosphate anhydride powder comprising: providing a dicalcium phosphate anhydride powder wherein at least 50% by weight is of a grain size of between 45 and 150 μm, a maximum of 50% by weight is of a grain size of <45 μm and a maximum of 5% by weight is of a grain size >150 μm, a bulk weight of between 1000 and 1500 g/l, and a specific surface area of <5m²/g; and capsule filling at least one pharmaceutical product with said dicalcium phosphate anhydride powder.
 5. The method as claimed in claim 4 wherein said dicalcium phosphate anhydride powder comprises a bulk weight of between 1200 and 1400 g/l.
 6. The method as claimed in claim 4 wherein said dicalcium phosphate anhydride powder comprises a specific surface area <2 m²/g. 